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01 July 2022 | Story Dr Nitha Ramnath | Photo Supplied
Leah Molatseli.

Leah Molatseli– alumna and Council member of the University of the Free State (UFS) – is the first African woman to be recognised by the American Bar Association in its list of Women of Legal Tech for her contribution and influence in the legal tech industry. A commitment to diversity is one of the core values of the American Bar Association, which the Law Practice Division aims to reinforce in the legal tech sector. Annually, talented women in the legal tech space are recognised for making an impact on legal tech.

A lawyer by profession, published legal tech author and speaker, as well as legal tech and innovation specialist, Molatseli uses technology and innovative means to empower and educate law professionals.  She is currently head of business development at Legal Interact, a South African law firm that provides technology solutions for the legal industry. 

Prof Francis Petersen, Rector and Vice-Chancellor of the UFS, congratulated Molatseli on her achievement. “On behalf of the executive committee of the University of the Free State (UFS) and the university community, I would like to extend my warmest congratulations on being recognised by the American Bar Association for your contribution to the legal tech industry. Being the first African woman to be honoured in this way makes this accomplishment even more extraordinary. You are a trailblazer in your field in so many ways,” said Prof Petersen. 

Prof Petersen said, “The university, and the Faculty of Law in particular, is proud to be associated with you. We also appreciate your continued support to the institution. Your dedication and expertise inspire us all – I will continue to follow your professional journey, because I know there is much more in store”. Prof Petersen continued to thank Molatseli for contributing to the legal field in an innovative and contemporary manner. 

Molatseli is host of and guest speaker for various legal tech talks globally, as well as a guest lecturer at the University of Cape Town, where she develops and teaches legal tech innovation-related courses to the legal industry. A Mandela Washington fellow, as well as a Notre Dame alumna, she is a member of the Women in Tech South African Chapter, a country member for the Global Legal Tech Consortium, and is one of 2022’s ILTA’s Most Influential Women in Legal Tech honourees.  


News Archive

Nanotechnology breakthrough at UFS
2010-08-19

 Ph.D students, Chantel Swart and Ntsoaki Leeuw


Scientists at the University of the Free State (UFS) made an important breakthrough in the use of nanotechnology in medical and biological research. The UFS team’s research has been accepted for publication by the internationally accredited Canadian Journal of Microbiology.

The UFS study dissected yeast cells exposed to over-used cooking oil by peeling microscopically thin layers off the yeast cells through the use of nanotechnology.

The yeast cells were enlarged thousands of times to study what was going on inside the cells, whilst at the same time establishing the chemical elements the cells are composed of. This was done by making microscopically small surgical incisions into the cell walls.

This groundbreaking research opens up a host of new uses for nanotechnology, as it was the first study ever in which biological cells were surgically manipulated and at the same time elemental analysis performed through nanotechnology. According to Prof. Lodewyk Kock, head of the Division Lipid Biotechnology at the UFS, the study has far reaching implications for biological and medical research.

The research was the result of collaboration between the Department of Microbial, Biochemical and Food Biotechnology, the Department of Physics (under the leadership of Prof. Hendrik Swart) and the Centre for Microscopy (under the leadership of Prof.Pieter van Wyk).

Two Ph.D. students, Chantel Swart and Ntsoaki Leeuw, overseen by professors Kock and Van Wyk, managed to successfully prepare yeast that was exposed to over-used cooking oil (used for deep frying of food) for this first ever method of nanotechnological research.

According to Prof. Kock, a single yeast cell is approximately 5 micrometres long. “A micrometre is one millionth of a metre – in laymen’s terms, even less than the diameter of a single hair – and completely invisible to the human eye.”

Through the use of nanotechnology, the chemical composition of the surface of the yeast cells could be established by making a surgical incision into the surface. The cells could be peeled off in layers of approximately three (3) nanometres at a time to establish the effect of the oil on the yeast cell’s composition. A nanometre is one thousandth of a micrometre.

Each cell was enlarged by between 40 000 and 50 000 times. This was done by using the Department of Physics’ PHI700 Scanning Auger Nanoprobe linked to a Scanning Electron Microscope and Argon-etching. Under the guidance of Prof. Swart, Mss. Swart en Leeuw could dissect the surfaces of yeast cells exposed to over-used cooking oil. 

The study noted wart like outgrowths - some only a few nanometres in diameter – on the cell surfaces. Research concluded that these outgrowths were caused by the oil. The exposure to the oil also drastically hampered the growth of the yeast cells. (See figure 1)  

Researchers worldwide have warned about the over-usage of cooking oil for deep frying of food, as it can be linked to the cause of diseases like cancer. The over-usage of cooking oil in the preparation of food is therefore strictly regulated by laws worldwide.

The UFS-research doesn’t only show that over-used cooking oil is harmful to micro-organisms like yeast, but also suggests how nanotechnology can be used in biological and medical research on, amongst others, cancer cells.

 

Figure 1. Yeast cells exposed to over-used cooking oil. Wart like protuberances/ outgrowths (WP) is clearly visible on the surfaces of the elongated yeast cells. With the use of nanotechnology, it is possible to peel off the warts – some with a diameter of only a few nanometres – in layers only a few nanometres thick. At the same time, the 3D-structure of the warts as well as its chemical composition can be established.  

Media Release
Issued by: Mangaliso Radebe
Assistant Director: Media Liaison
Tel: 051 401 2828
Cell: 078 460 3320
E-mail: radebemt@ufs.ac.za  
18 August 2010
 

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